19254814
Description
Flashcards by Waleed Ations, updated more than 1 year ago
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Created by Waleed Ations
about 6 years ago
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| Question | Answer |
| The depth of compression block a = |
Image:
A (binary/octet-stream)
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| The maximum depth of rectangular compression block a max = |
Image:
A+Max (binary/octet-stream)
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| The maximum depth of compression zone c max |
Image:
C+Max (binary/octet-stream)
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| The factor for converting compression block to rectangular β1 = |
Image:
B1 (binary/octet-stream)
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| Required reinforcement of singly reinforced section As = |
Image:
As (binary/octet-stream)
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| The moment resisted by compressed concrete and tension reinforcement M uc = |
Image:
M+Uc (binary/octet-stream)
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| The force developed in concrete C = |
Image:
C (binary/octet-stream)
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| The moment required to be resisted by compression reinforcement and tension reinforcement M us = |
Image:
M+Us (binary/octet-stream)
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| The Stress in the compression steel fs`= |
Image:
Fs` (binary/octet-stream)
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| The required compression reinforcement is As`= |
Image:
As` (binary/octet-stream)
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| The required tension reinforcement to balance compression in concrete A s1= |
Image:
A+S1 (binary/octet-stream)
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| The required tension reinforcement to balance compression in steel A s2 = |
Image:
A+S2 (binary/octet-stream)
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| The total tension reinforcement is As = |
Image:
A+S (binary/octet-stream)
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| The maximum reinforcement ratio for "tension controlled section" ρ max = |
Image:
P+Max (binary/octet-stream)
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| The balance reinforcement ratio ρ b = |
Image:
P+B (binary/octet-stream)
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| Minimum reinforcement ratio ρ min = |
Image:
P+Min (binary/octet-stream)
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| R umax = |
Image:
R+Umax (binary/octet-stream)
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| The minimum depth of a section to resist a moment considering maximum reinforcement d = |
Image:
D (binary/octet-stream)
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